%0 Journal Article
%T The Anatomy, Embryology and Systematic Relationships of Eucommiaceae
杜仲科的解剖学和胚胎学及其系统关系
%A Zhang Zhi-Yu
%A Lu An-Ming
%A Pan Kai-Yu
%A Wen Jie
%A
张芝玉
%A 路安民
%A 潘开玉
%A 温洁
%J 中国科学院研究生院学报
%D 1990
%I
%X In this work examined were leaf and wood anatomy and embryogenesis under LM and pollen morphology under SEM of Eucommia ulmoides Oliv. The results were used for a comparison between the family and Ulmaceae and Hamamelidaceae respectively. The taxon- omic rank and relationships of E. ulmoides were analyzed mainly based on the spiral thicken- ings on lateral walls of vessels in the secondary xylem, the presence of iridoid, embryology and palynology. 1. The present authors tend to support Keng's (1962) view that the spiral thickenings on la- teral walls of vessels are the remnant of a primitive character. The spiral thickenings on lateral walls of vessels in E. ulmoides (Plate 1: 9) are similar to those of some genera of the Hamameli- daceae (e. g. Altingia Noronha), while vessels in Ulmaceae lack spiral thickenings on lateral walls. The Eucommiaceae with simple perforations plates (Plate 1: 9) is more specialized than the Hamamelidaceae. 2. Based on the fact that the Eucommiaceae contains iridoid compound and has unitegmic ovules and cellular endosperm, Dahlgren (1980, 1983) places with uncertainty the family in Cor- niflorae as an order, a treatment which is widely discrepant from those of Takhtajan (1980), cronquist (1981) and thorne (1983). Though containing iridoid compound, the Eucommiaceae is different from Corniflorae in a combination of characters in external morphology, woody anatomy and embryology. The compound has also been found in Liquidambar L. (Hamameli- daceae) but not in the Ulmaceae, which is another piece of evidence showing a close relation- ship between Eucommiaceae and Hamamelidaceae. 3. The development of microsporangia and megasporangia, as observed in the present work, is basically in accordance with that reported by Tang (1962) and Eckardt (1963), but the haustoria present both at the micropylar end and at the chalazal end and 4-celled proembryo of the Solanad Type are reported here for the first time. It can be seen from Table 2 that the Eucommiaceae and the Hamamelidaceae have a nu- mber of embryological characters in common For example, glandular tapetal cells in an- thers are usually multinuclear; cytokinesis of meiosis of pollen mother cells is simultaneous; microspores develop into tetrahedral; ovules are anatropous, crassinucellate; embryo sacs are of the monosporic Polygonum Type; endosperm is cellular (Plate 3: 5-7; 4: 1-3; 5: 1-3; Fig. 1: 1-3,5). The Eucommiaceae is also embryologically related to the family Ulmaceae, but the family under study is more specialized than the two families mentioned above in uni- tegminy (Plate 4: 3,4), proembryo of the Solanad Type (Plate 6: 3; Fig. 2: 4), coexistence of micropylar haustoium (Plate 6: 4-6) and chalazal hustorium, especially in the Eucom- miaceae the epidermis and the endothecium are widely separate (Plate 3:3), a feature which has never been seen in angiosperms to our knowledge. 4. Pollen grains of the Eucommiaceae are tr
%K Eucommiaceae
%K Ulmaceae
%K Hamamelidaceae
%K Wood
%K Embryology
%K Iridoid
%K Systematic position
杜仲科
%K 榆科
%K 金缕梅科
%K 木材
%K 胚胎学
%K 环烯醚萜
%K 系统位置
%U http://www.alljournals.cn/get_abstract_url.aspx?pcid=B5EDD921F3D863E289B22F36E70174A7007B5F5E43D63598017D41BB67247657&cid=B47B31F6349F979B&jid=67CDFDECD959936E166E0F72DE972847&aid=6B0017465BD4087A13AB167F35E021DF&yid=8D39DA2CB9F38FD0&vid=D3E34374A0D77D7F&iid=B31275AF3241DB2D&sid=389DA78D878702A9&eid=5319469C819FCFF1&journal_id=1002-1175&journal_name=中国科学院研究生院学报&referenced_num=1&reference_num=0